/* This file is part of LilyPond, the GNU music typesetter. Copyright (C) 1998--2015 Han-Wen Nienhuys LilyPond is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. LilyPond is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with LilyPond. If not, see . */ #include "side-position-interface.hh" #include // ceil. #include #include #include using namespace std; #include "accidental-interface.hh" #include "accidental-placement.hh" #include "axis-group-interface.hh" #include "directional-element-interface.hh" #include "grob.hh" #include "grob-array.hh" #include "international.hh" #include "item.hh" #include "main.hh" #include "misc.hh" #include "note-head.hh" #include "note-column.hh" #include "pointer-group-interface.hh" #include "skyline-pair.hh" #include "staff-symbol-referencer.hh" #include "staff-symbol.hh" #include "stem.hh" #include "string-convert.hh" #include "system.hh" #include "warn.hh" #include "unpure-pure-container.hh" void Side_position_interface::add_support (Grob *me, Grob *e) { Pointer_group_interface::add_unordered_grob (me, ly_symbol2scm ("side-support-elements"), e); } set get_support_set (Grob *me) { // Only slightly kludgy heuristic... // We want to make sure that all AccidentalPlacements' // accidentals make it into the side support extract_grob_set (me, "side-support-elements", proto_support); set support; for (vsize i = 0; i < proto_support.size (); i++) { if (has_interface (proto_support[i])) { Grob *accs = proto_support[i]; for (SCM acs = accs->get_object ("accidental-grobs"); scm_is_pair (acs); acs = scm_cdr (acs)) for (SCM s = scm_cdar (acs); scm_is_pair (s); s = scm_cdr (s)) { Grob *a = unsmob (scm_car (s)); support.insert (a); } } else support.insert (proto_support[i]); } return support; } /* Position next to support, taking into account my own dimensions and padding. */ SCM axis_aligned_side_helper (SCM smob, Axis a, bool pure, int start, int end, SCM current_off_scm) { Real r; Real *current_off_ptr = 0; if (scm_is_number (current_off_scm)) { r = scm_to_double (current_off_scm); current_off_ptr = &r; } Grob *me = unsmob (smob); // We will only ever want widths of spanners after line breaking // so we can set pure to false if (dynamic_cast (me) && a == X_AXIS) pure = false; return Side_position_interface::aligned_side (me, a, pure, start, end, current_off_ptr); } MAKE_SCHEME_CALLBACK_WITH_OPTARGS (Side_position_interface, x_aligned_side, 2, 1, ""); SCM Side_position_interface::x_aligned_side (SCM smob, SCM current_off) { // Because horizontal skylines need vertical heights, we'd trigger // unpure calculations too soon if this were called before line breaking. // So, we always use pure heights. Given that horizontal skylines are // almost always used before line breaking anyway, this doesn't cause // problems. return axis_aligned_side_helper (smob, X_AXIS, true, 0, 0, current_off); } MAKE_SCHEME_CALLBACK_WITH_OPTARGS (Side_position_interface, y_aligned_side, 2, 1, ""); SCM Side_position_interface::y_aligned_side (SCM smob, SCM current_off) { return axis_aligned_side_helper (smob, Y_AXIS, false, 0, 0, current_off); } MAKE_SCHEME_CALLBACK_WITH_OPTARGS (Side_position_interface, pure_y_aligned_side, 4, 1, ""); SCM Side_position_interface::pure_y_aligned_side (SCM smob, SCM start, SCM end, SCM cur_off) { return axis_aligned_side_helper (smob, Y_AXIS, true, scm_to_int (start), scm_to_int (end), cur_off); } MAKE_SCHEME_CALLBACK (Side_position_interface, calc_cross_staff, 1) SCM Side_position_interface::calc_cross_staff (SCM smob) { Grob *me = unsmob (smob); extract_grob_set (me, "side-support-elements", elts); Direction my_dir = get_grob_direction (me) ; for (vsize i = 0; i < elts.size (); i++) { /* If 'me' is placed relative to any cross-staff element with a 'direction callback defined, the placement of 'me' is likely to depend on staff-spacing, thus 'me' should be considered cross-staff. */ if (to_boolean (elts[i]->get_property ("cross-staff")) && !is_direction (elts[i]->get_property_data ("direction"))) return SCM_BOOL_T; /* If elts[i] is cross-staff and is pointing in the same direction as 'me', we assume that the alignment of 'me' is influenced the cross-staffitude of elts[i] and thus we mark 'me' as cross-staff. */ if (to_boolean (elts[i]->get_property ("cross-staff")) && my_dir == get_grob_direction (elts[i])) return SCM_BOOL_T; } Grob *myvag = Grob::get_vertical_axis_group (me); for (vsize i = 0; i < elts.size (); i++) if (myvag != Grob::get_vertical_axis_group (elts[i])) return SCM_BOOL_T; return SCM_BOOL_F; } // long function - each stage is clearly marked SCM Side_position_interface::aligned_side (Grob *me, Axis a, bool pure, int start, int end, Real *current_off) { Direction dir = get_grob_direction (me); set support = get_support_set (me); Grob *common[2]; for (Axis ax = X_AXIS; ax < NO_AXES; incr (ax)) common[ax] = common_refpoint_of_array (support, (ax == a ? me->get_parent (ax) : me), ax); Grob *staff_symbol = Staff_symbol_referencer::get_staff_symbol (me); bool quantize_position = to_boolean (me->get_maybe_pure_property ("quantize-position", pure, start, end)); bool me_cross_staff = to_boolean (me->get_property ("cross-staff")); bool include_staff = staff_symbol && a == Y_AXIS && scm_is_number (me->get_maybe_pure_property ("staff-padding", pure, start, end)) && !quantize_position; if (include_staff) common[Y_AXIS] = staff_symbol->common_refpoint (common[Y_AXIS], Y_AXIS); Skyline my_dim; SCM skyp = me->get_maybe_pure_property (a == X_AXIS ? "horizontal-skylines" : "vertical-skylines", pure, start, end); if (unsmob (skyp)) { // for spanner pure heights, we don't know horizontal spacing, // so a spanner can never have a meaningful x coordiante // we just give it the parents' coordinate because its // skyline will likely be of infinite width anyway // and we don't want to prematurely trigger H spacing Real xc = a == X_AXIS || (pure && dynamic_cast (me)) ? me->parent_relative (common[X_AXIS], X_AXIS) : me->relative_coordinate (common[X_AXIS], X_AXIS); // same here, for X_AXIS spacing, if it's happening, it should only be // before line breaking. because there is no thing as "pure" x spacing, // we assume that it is all pure Real yc = a == X_AXIS ? me->pure_relative_y_coordinate (common[Y_AXIS], start, end) : me->get_parent (Y_AXIS)->maybe_pure_coordinate (common[Y_AXIS], Y_AXIS, pure, start, end); Skyline_pair copy = *unsmob (skyp); copy.shift (a == X_AXIS ? yc : xc); copy.raise (a == X_AXIS ? xc : yc); my_dim = copy[-dir]; } else me->warning ("cannot find skylines - strange alignment will follow"); vector boxes; vector skyps; set::iterator it; for (it = support.begin (); it != support.end (); it++) { Grob *e = *it; bool cross_staff = to_boolean (e->get_property ("cross-staff")); if (a == Y_AXIS && !me_cross_staff // 'me' promised not to adapt to staff-spacing && cross_staff) // but 'e' might move based on staff-pacing continue; // so 'me' may not move in response to 'e' if (a == Y_AXIS && has_interface (e)) { // If called as 'pure' we may not force a stem to set its direction, if (pure && !is_direction (e->get_property_data ("direction"))) continue; // There is no need to consider stems pointing away. if (dir == -get_grob_direction (e)) continue; } if (e) { SCM sp = e->get_maybe_pure_property (a == X_AXIS ? "horizontal-skylines" : "vertical-skylines", pure, start, end); if (unsmob (sp)) { Real xc = pure && dynamic_cast (e) ? e->parent_relative (common[X_AXIS], X_AXIS) : e->relative_coordinate (common[X_AXIS], X_AXIS); // same logic as above // we assume horizontal spacing is always pure Real yc = a == X_AXIS ? e->pure_relative_y_coordinate (common[Y_AXIS], start, end) : e->maybe_pure_coordinate (common[Y_AXIS], Y_AXIS, pure, start, end); Skyline_pair copy = *unsmob (sp); if (a == Y_AXIS && has_interface (e) && to_boolean (me->get_maybe_pure_property ("add-stem-support", pure, start, end))) copy[dir].set_minimum_height (copy[dir].max_height ()); copy.shift (a == X_AXIS ? yc : xc); copy.raise (a == X_AXIS ? xc : yc); skyps.push_back (copy); } else { /* no warning*/ } } } Skyline dim (boxes, other_axis (a), dir); if (skyps.size ()) { Skyline_pair merged (skyps); dim.merge (merged[dir]); } if (include_staff) { Interval staff_extents; common[Y_AXIS] = staff_symbol->common_refpoint (common[Y_AXIS], Y_AXIS); staff_extents = staff_symbol->maybe_pure_extent (common[Y_AXIS], Y_AXIS, pure, start, end); dim.set_minimum_height (staff_extents[dir]); } // Sometimes, we want to side position for grobs but they // don't position against anything. Some cases where this is true: // - StanzaNumber if the supporting lyrics are hara-kiri'd // SystemStartBracket // InstrumentName // In all these cases, we set the height of the support to 0. // This becomes then like the self-alignment-interface with the // caveat that there is padding added. // TODO: if there is a grob that never has side-support-elements // (like InstrumentName), why are we using this function? Isn't it // overkill? A function like self-alignment-interface with padding // works just fine. // One could even imagine the two interfaces merged, as the only // difference is that in self-alignment-interface we align on the parent // where as here we align on a group of grobs. if (dim.is_empty ()) { dim = Skyline (dim.direction ()); dim.set_minimum_height (0.0); } Real ss = Staff_symbol_referencer::staff_space (me); Real dist = dim.distance (my_dim, robust_scm2double (me->get_maybe_pure_property ("horizon-padding", pure, start, end), 0.0)); Real total_off = !isinf (dist) ? dir * dist : 0.0; total_off += dir * ss * robust_scm2double (me->get_maybe_pure_property ("padding", pure, start, end), 0.0); Real minimum_space = ss * robust_scm2double (me->get_maybe_pure_property ("minimum-space", pure, start, end), -1); if (minimum_space >= 0 && dir && total_off * dir < minimum_space) total_off = minimum_space * dir; if (current_off) total_off = dir * max (dir * total_off, dir * (*current_off)); /* FIXME: 1000 should relate to paper size. */ if (fabs (total_off) > 1000) { string msg = String_convert::form_string ("Improbable offset for grob %s: %f", me->name ().c_str (), total_off); programming_error (msg); if (strict_infinity_checking) scm_misc_error (__FUNCTION__, "Improbable offset.", SCM_EOL); } /* Ensure 'staff-padding' from my refpoint to the staff. This is similar to side-position with padding, but it will put adjoining objects on a row if stuff sticks out of the staff a little. */ Grob *staff = Staff_symbol_referencer::get_staff_symbol (me); if (staff && a == Y_AXIS) { if (quantize_position) { Grob *common = me->common_refpoint (staff, Y_AXIS); Real my_off = me->get_parent (Y_AXIS)->maybe_pure_coordinate (common, Y_AXIS, pure, start, end); Real staff_off = staff->maybe_pure_coordinate (common, Y_AXIS, pure, start, end); Real ss = Staff_symbol::staff_space (staff); Real position = 2 * (my_off + total_off - staff_off) / ss; Real rounded = directed_round (position, dir); Grob *head = me->get_parent (X_AXIS); Interval staff_span = Staff_symbol::line_span (staff); staff_span.widen (1); if (staff_span.contains (position) /* If we are between notehead and staff, quantize for ledger lines. */ || (has_interface (head) && dir * position < 0)) { total_off += (rounded - position) * 0.5 * ss; if (Staff_symbol_referencer::on_line (me, int (rounded))) total_off += dir * 0.5 * ss; } } else if (scm_is_number (me->get_maybe_pure_property ("staff-padding", pure, start, end)) && dir) { Real staff_padding = Staff_symbol_referencer::staff_space (me) * scm_to_double (me->get_maybe_pure_property ("staff-padding", pure, start, end)); Grob *parent = me->get_parent (Y_AXIS); Grob *common = me->common_refpoint (staff, Y_AXIS); Real parent_position = parent->maybe_pure_coordinate (common, Y_AXIS, pure, start, end); Real staff_position = staff->maybe_pure_coordinate (common, Y_AXIS, pure, start, end); Interval staff_extent = staff->maybe_pure_extent (staff, a, pure, start, end); Real diff = (dir * staff_extent[dir] + staff_padding - dir * total_off + dir * (staff_position - parent_position)); total_off += dir * max (diff, 0.0); } } return scm_from_double (total_off); } void Side_position_interface::set_axis (Grob *me, Axis a) { if (!scm_is_number (me->get_property ("side-axis"))) { me->set_property ("side-axis", scm_from_int (a)); chain_offset_callback (me, (a == X_AXIS) ? x_aligned_side_proc : Unpure_pure_container::make_smob (y_aligned_side_proc, pure_y_aligned_side_proc), a); } } Axis Side_position_interface::get_axis (Grob *me) { if (scm_is_number (me->get_property ("side-axis"))) return Axis (scm_to_int (me->get_property ("side-axis"))); string msg = String_convert::form_string ("side-axis not set for grob %s.", me->name ().c_str ()); me->programming_error (msg); return NO_AXES; } MAKE_SCHEME_CALLBACK (Side_position_interface, move_to_extremal_staff, 1); SCM Side_position_interface::move_to_extremal_staff (SCM smob) { Grob *me = unsmob (smob); System *sys = dynamic_cast (me->get_system ()); Direction dir = get_grob_direction (me); if (dir != DOWN) dir = UP; Interval iv = me->extent (sys, X_AXIS); iv.widen (1.0); Grob *top_staff = sys->get_extremal_staff (dir, iv); if (!top_staff) return SCM_BOOL_F; // Only move this grob if it is a direct child of the system. We // are not interested in moving marks from other staves to the top // staff; we only want to move marks from the system to the top // staff. if (sys != me->get_parent (Y_AXIS)) return SCM_BOOL_F; me->set_parent (top_staff, Y_AXIS); me->flush_extent_cache (Y_AXIS); Axis_group_interface::add_element (top_staff, me); // Remove any cross-staff side-support dependencies Grob_array *ga = unsmob (me->get_object ("side-support-elements")); if (ga) { vector const &elts = ga->array (); vector new_elts; for (vsize i = 0; i < elts.size (); ++i) { if (me->common_refpoint (elts[i], Y_AXIS) == top_staff) new_elts.push_back (elts[i]); } ga->set_array (new_elts); } return SCM_BOOL_T; } ADD_INTERFACE (Side_position_interface, "Position a victim object (this one) next to other objects" " (the support). The property @code{direction} signifies where" " to put the victim object relative to the support (left or" " right, up or down?)\n" "\n" "The routine also takes the size of the staff into account if" " @code{staff-padding} is set. If undefined, the staff symbol" " is ignored.", /* properties */ "add-stem-support " "direction " "minimum-space " "horizon-padding " "padding " "quantize-position " "side-axis " "side-support-elements " "slur-padding " "staff-padding " "use-skylines " );